ogy: iol Cu ys r h re P n t & R y e s Anatomy & Physiology: Current m e o a t El-Busaidy et al., Anat Physiol 2014, 4:1 r a c n h A Research DOI: 10.4172/2161-0940.1000135 ISSN: 2161-0940 Research Article Open Access Prevalence of Abnormal Sternal Angles in a Kenyan Population Hemed El-Busaidy*, Jameela Hassanali, Wycliffe Kaisha, Saidi Hassan, Julius Ogeng’o and Bernard Ndung’u Department of Human Anatomy, University of Nairobi, Kenya Abstract Abnormal sternal angles are unique anatomical variations of major clinical significance. For instance, misplaced sternal angles may cause inaccurate numbering of ribs and thus complicate intercostal nerve blocks and needle thoracostomies. They are also associated with increased risk of sternal fracture in blunt chest trauma. Additional sternal symphyses can be misinterpreted as fracture or lytic lesion in cross-sectional imaging of the sternum. These variations are rarely reported in Africans and lacking in the Kenyan population. We therefore aimed to determine the prevalence of abnormal sternal angles in a Kenyan population. 80 cadaveric adult sterna were studied at the Department of Anatomy, University of Nairobi, after ethical approval. The size of the angle was measured using a sliding protractor (CCKL, U.K). Results were analyzed by SPSS 18.0. The sternal angle was located at the level of the third costal notch in 7 cases (8.8%). It was un-ridged in 8 cases (10%). The angle measured 161.7° ± 4.7 in males and 159.9° ± 4.9 in females (p=0.165). In 9 cases (11.25%), the angle measured less than 150°. An additional sternal symphysis was present in 6 specimens (7.5%). Over 35% of sternal angles in Kenyans showed an abnormality in location, palpability or size. These variations may influence intercostal nerve blocks, interpretation of sternal images and evaluation of chest trauma. Further research is needed to correlate these findings. Keywords: Sternal angle; Variations; Physical examination; Sternal range 18-45 years were studied. These were obtained during routine fractures dissection at the Department of Human Anatomy, University of Nairobi, Kenya. Ethical approval was obtained from the Kenyatta Introduction National Hospital/University of Nairobi Ethics and Review Committee before commencement of the study. Bilateral incisions were made The sternum, a flat bone located in the middle of the chest, forms longitudinally through the costal cartilages and the sternum was part of the anterior thoracic wall overlying the heart and great vessels in removed as a whole. The specimens were macerated in 10% formalin the middle mediastinum. Its caudal end, the xiphoid process, is related to for a period of two months and the remaining soft tissues were carefully the central tendon of the diaphragm and inferior border of the heart [1]. removed from the surface of the sternum. All specimens had fused Knowledge of the anatomy and variations of the sternum is manubriosternal symphysis. Broken and incomplete sterna and those important during evaluation and treatment of various hematological with foramina and obvious gross abnormalities were excluded. and developmental diseases, planning thoracic surgery, identifying The sternal angle was measured on a flat surface using three possible post-surgery complications and preventing mediastinal organ landmarks: a point immediately below the inferior end of clavicular notch, injury such as cardiac tamponade [2]. The sternum is also an important immediately below manubriosternal junction, and a point inferior to the landmark in forensic medicine and anthropology. 4th costal notch [5]. Two lines were drawn to join these points (Figure Variations of the sternal angle are also important during physical 1a) and the angle subtended was measured using a sliding protractor examination of the chest, intercostal nerve blocks, insertion of (CCKL Creator, U.K, accurate to 0.5°), Figure 1b. Measurements were underwater-seal chest drains and bedside measurement of jugular taken by a single observer at two separate sittings. The location of the venous pressure [1]. However, these procedures can be markedly angle and number of sternal symphysis were recorded. The sternal angle influenced by misplaced and impalpable sternal angles [3]. Furthermore, was considered misplaced if it did not correspond with the second costal additional symphyses at the manubriosternal junction have been notch. Photographs of representative sterna were taken using Fujifilm incorrectly labeled as fractures, traumatic fissures and lytic lesions in A235 digital camera with a resolution of 12.2 megapixels. Data was TM cross-sectional imaging of the sternum [4]. Radiologists should be analyzed using SPSS version 18.0 (windows Inc., Chicago) and general aware of these variations as potential differential diagnosis. descriptive statistics were applied to derive means and standard deviations of the measured parameters. Sex differences were determined using The sternal angle measures approximately 155° to 175° which independent students’ t-test and p value of ≤ 0.05 was taken as significant. confer rigidity to manubriosternal union [5]. However, exaggerated sternal angles have been associated with sternal fractures during minor trauma to the anterior chest wall [6]. These fractures have *Corresponding author: Hemed El-Busaidy, Department of Human Anatomy, also been documented during active compression-decompression University of Nairobi, P.O. Box 00100 – 30197, Kenya, Tel: +254732666777; cardio-pulmonary resuscitation [7-9]. Such fractures not only increase E-mail: [email protected] the likelihood of damage to underlying organs but may also impair Received December 24, 2013; Accepted January 27, 2014; Published January ventilation and complicate recovery. These variations of the sternum 29, 2014 are rarely reported in the African population and data from Kenya is Citation: El-Busaidy H, Hassanali J, Kaisha W, Hassan S, Ogeng’o J, et al. (2014) altogether absent. The current study therefore aimed to determine the Prevalence of Abnormal Sternal Angles in a Kenyan Population. Anat Physiol 4: prevalence of abnormal sternal angles in a Kenyan population. 135. doi:10.4172/2161-0940.1000135 Copyright: © 2014 El-Busaidy H, et al. This is an open-access article distributed Materials and Methods under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the A total of 80 cadaveric adult sterna (42 males, 38 females) of age original author and source are credited. Anat Physiol ISSN:2161-0940 Physiol, an open access journal Volume 4 • Issue 1 • 1000135 Citation: El-Busaidy H, Hassanali J, Kaisha W, Hassan S, Ogeng’o J, et al. (2014) Prevalence of Abnormal Sternal Angles in a Kenyan Population. Anat Physiol 4: 135. doi:10.4172/2161-0940.1000135 Page 2 of 4 Discussion The size of the sternal angle In the present study, the average size of sternal angle in males and females was 161.7° ± 6.0 and 159.9° ± 5.9 respectively. This difference was not statistically significant. A review of literature found a single study that documented the size of the sternal angle in Croatians (Table 1). This table depicts smaller sternal angles in the study population. This difference may be attributed to geographical variations in the size of the angle and probably body mass index, as sample size and methodology used in these studies were similar. Further, the present study found 9 cases (11.25%) of sternal angles measuring less than 150°. This variant has been associated with sternal fractures in mild trauma to the anterior chest wall [7,6]. A sternal fracture is a very common injury that occurs after motor vehicle collisions, particularly Figure 1: a: Macrograph showing the landmarks used in measuring the sternal angle b: Macrograph illustrating the materials and methods used in the study. Figure 3: Macrograph showing un-ridged/flat manubriosternal junction. Figure 2: Macrograph showing sternal angle at the third costal notch (misplaced sternal angle). Results The sternal angle was misplaced (i.e. located at the third costal notch instead of second) in 7 cases 8.8% (Figure 2). It was un- ridged in 8 cases (10%), Figure 3. The angle ranged from 145.0° to 172.0° with an average of 161.70 ± 6.0 in males and 159.9°± 5.9 in females. This difference was however not statistically significant (p=0.165). In 9 cases (11.25%), the angle measured less than 150° (Figure 4). An additional sternal symphysis was present in 6 specimens (7.5%), and Figure 4: Macrograph showing sternal angle measuring 1450. was located at the level of third costal notch (Figure 5). Anat Physiol ISSN:2161-0940 Physiol, an open access journal Volume 4 • Issue 1 • 1000135 Citation: El-Busaidy H, Hassanali J, Kaisha W, Hassan S, Ogeng’o J, et al. (2014) Prevalence of Abnormal Sternal Angles in a Kenyan Population. Anat Physiol 4: 135. doi:10.4172/2161-0940.1000135 Page 3 of 4 sternum. Radiologists should be aware of this variation as a potential differential diagnosis. The variations of the sternal angle observed in our study may have an embryological basis. The sternum arises from paired longitudinal concentrations of mesenchymal tissue located on each side of the anterior chest wall called “sternal bars” during the 6th week of development [16]. Afterwards, these sternal bars migrate towards the midline and fuse to form the sternal plate. This fusion begins at the cephalic end of the sternal bars and progresses in a cranio-caudal direction and is completed by the 10th week [17]. After maturation into cartilage, the sternum undergoes several transverse divisions into a series of six cartilaginous segments called “sternebrae” or “segments”. There is one segment for the manubrium, four for the body and one for the xiphoid process. The segments then ossify gradually in a craniocaudal succession from the cartilaginous precursors by endochondral ossification producing the definitive bones of the sternum [18].